Journal
IEEE JOURNAL OF EMERGING AND SELECTED TOPICS IN POWER ELECTRONICS
Volume 11, Issue 3, Pages 2742-2754Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/JESTPE.2022.3230047
Keywords
High voltage gain; multilevel; soft-charging; switched capacitor
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This research article introduces a new single dc source high-boost 17-level switched capacitor inverter topology for photovoltaic applications. The proposed topology includes a continuous input current front-end dc/dc converter and a switched capacitor module for high voltage boosting. The mathematical expression for output voltage gain is derived, and various analyses such as soft-charging technique, power loss, and voltage gain are conducted. A detailed comparison is provided to demonstrate the superiority of the suggested topology over other topologies in terms of maximum blocking voltage, voltage gain, and components' count. A scaled-down prototype model is designed and achieves 94.5% efficiency for 520 W.
This research article shows a new single dc source high-boost 17-level (17L) switched capacitor inverter topology with a continuous input current for photovoltaic applications. The proposed topology consists of two modules: 1) a front -end dc/dc converter that offers continuous input current and 2) a switched capacitor module for high voltage boosting. The mathematical expression for output voltage gain is derived. The proposed topology aims to minimize the component stress and counts. Different analyses are addressed, such as soft-charging technique, power loss, and voltage gain. A detailed comparison in terms of maximum blocking voltage (V-B), voltage gain (G), and components' count is shown to demonstrate the superiority of the suggested topology over other topologies. The scaled-down prototype model is designed for 520 W and has 94.5% efficiency. The proposed topology's performance is validated, and the results are reported, including the variation in load, duty cycle, and other characteristics.
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